The researchers suggest that in the future, the technique might be used to print intricate electronics, or more importantly, living tissue, though there is still a long way to go before that can happen—one of the hurdles may be cleanly separating the printed object from the gel. (Phys.org)—A team of researchers at the University of Florida has taken the technique of printing objects inside of a gel a step further by using a highly shear-rate sensitive gel. In their paper published in the journal Science Advances, the team describes the technique and the wide variety of objects they were able to print. Synthetic DNA gel points the way to printing artificial organs Cross-linked structures can be removed from the granular gel. Model jellyfish structures are photopolymerized and then washed in water. Floating in a water bath, the jellyfish exhibit life-like motions in gentle convective currents. Credit: T. Bhattacharjee, K. Schulze, W.G. Sawyer, and T.E. Angelini, University of Florida 3D printing has come a long way in a short time, objects are now being created around the world in ways unimaginable just a few decades ago. But despite the gains that have been made there is still one problem area: printing objects that tend to collapse during the printing process. Imagine trying to print a jellyfish for example, the material that makes up its body would sag after the first few injections preventing the rest of the creature from being printed. To get around this problem, researchers have been experimenting with scaffolding, and gels. Hard scaffolding only works in very limited applications—gels on the other hand, can be used in nearly limitless ways. They work by holding the object in place while it is being printed. In this new effort, the researchers have refined the process to the degree that they were able to print extremely thin walled closed shells and delicate branched networks.To improve the process, the team used a commercially available gel made of particles that are just 7µm-wide—that allowed for more precision when printing. To print an object, a gel (the researches describe it as very similar to hand washing gel), is poured into a container, then the printer goes to work—the print-head is shaped like a needle and is dipped down into the gel where “ink” (made of polymers or other materials) is ejected. The ink comes out as a liquid but solidifies as soon as it is ejected into the gel. The printer moves the head around depositing the ink until the object has been completely printed. Once complete the object is pulled from the gel and cleaned. Explore further © 2015 Phys.org Journal information: Science Advances The example of Russian dolls illustrates the unique capabilities of the technique. Writing in the granular gel medium allows the exquisitely controlled creation of detailed surfaces with both smooth curves and sharp corners. The stability and precision provided by the granular gel allow large delicate structures to be assembled in seemingly impossible configurations. Credit: T. Bhattacharjee and T.E. Angelini, University of Florida Citation: Researchers print inside gels to create unique shapes (2015, September 30) retrieved 18 August 2019 from https://phys.org/news/2015-09-gels-unique.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.